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clsLocalNetCurrentValues.c
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clsLocalNetCurrentValues.c
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the ig-logger project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* Original author: Christian Kaiser <[email protected]>
*/
double _round(double d)
{
return(floor(d + 0.5));
}
String GetStringFromPayload(const BYTE*& pPayload, bool bAdvancePointer=true)
{
String s((const char*)pPayload,1,pPayload[0]);
if (bAdvancePointer)
{
pPayload += 1 + pPayload[0];
}
return(s);
}
class clsIGState
: public clsIGValue
{
private:
struct scIGState
{
/*
C3 00 13 01 32 03 // Power Low
C3 00 15 01 32 03 // Power Low 21 s
43 00 1E 00 00 03 // Test 30 s
82 00 00 01 32 03 // Sync AC
44 00 00 00 00 03 // Startup
45 00 10 00 00 03 // Sync ENS
06 00 00 00 00 03 // ???
0e 00 00 00 00 03 // ???
8B 00 00 01 A9 03 // Wait PS, State 425
C3 00 1C 01 32 03
C3 00 14 01 33 03 // ""
C3 00 14 01 33 03
C3 00 0F 01 33 03
*/
#pragma pack(push,1)
scDataBYTE _nSubstate;
scDataUINT _nWaitTime;
scDataUINT _nStateCode;
scDataBYTE _nRunState;
#pragma pack(pop)
};
String sValue(const BYTE*& pPayload, bool bWithCountdown) const
{
String sRes;
const scIGState* pState = reinterpret_cast<const scIGState*>(pPayload);
switch (pState->_nRunState.nValue())
{
case 0x02:
sRes = "running";
break;
case 0x03:
switch (pState->_nSubstate.nValue() & 0x7f)
{
case 0x02:
sRes = "Sync AC";
break;
case 0x0B:
sRes = "Wait PS";
break;
case 0x06:
sRes = String::Format("unknown substate 0x%02x - even IG.Access does not show a text for it ;-)",pState->_nSubstate.nValue() & 0x7f);
break;
case 0x43:
sRes = "Power Low";
break;
case 0x44:
sRes = "Startup";
break;
case 0x45:
sRes = "Sync ENS";
break;
case 0x01:
default:
sRes = String::Format("unknown substate 0x%02x",pState->_nSubstate.nValue() & 0x7f);
break;
case 0x00:
break;
}
if (pState->_nSubstate.nValue() & 0x80)
{
sRes += String::Format(" (%s)",(LPCTSTR)clsLocalNet::GetStateDescription(pState->_nStateCode.nValue()));
}
if (bWithCountdown &&
pState->_nWaitTime.nValue() != 0)
{
sRes += String::Format(" (%d sec)",pState->_nWaitTime.nValue());
}
break;
default:
sRes = String::Format("unknown runstate 0x%x",pState->_nRunState.nValue());
break;
}
return(sRes);
}
public:
clsIGState(unsigned nMask, unsigned nBytes, const char* pszName)
: clsIGValue(nMask, nBytes, pszName)
{
}
unsigned nState(const BYTE*& pPayload)
{
const scIGState* pState = reinterpret_cast<const scIGState*>(pPayload);
return(pState->_nRunState.nValue());
}
String sState(const BYTE*& pPayload) const
{
return(sValue(pPayload,true));
}
virtual double dValue(const BYTE* pPayload) const
{
const scIGState* pState = reinterpret_cast<const scIGState*>(pPayload);
return(pState->_nRunState.nValue());
}
virtual String sValue(const BYTE*& pPayload) const
{
return(sValue(pPayload,false));
}
};
/*
static const char* pszDisplayType(clsLocalNet::enDisplaySelection nDisplaySelection)
{
switch (nDisplaySelection)
{
case clsLocalNet::DATA_TEST:
return("TEST");
case clsLocalNet::DATA_EXTENDED:
return("EXT");
case clsLocalNet::DATA_STATE:
return("STATE");
case clsLocalNet::DATA_CURRENT:
return("CUR");
case clsLocalNet::DATA_DAY:
return("DAY");
case clsLocalNet::DATA_YEAR:
return("YEAR");
case clsLocalNet::DATA_TOTAL:
return("TOTAL");
}
return("?");
}
*/
static clsIGState __State (0x00000001,6,"State"); // 07 00 00 00 00 02
static clsIGValue __CurPower (0x00000002,4,"Power"); // 04 58 0e 84
static clsIGValue __CurACCurrent (0x00000004,4,"ACCurrent"); // 01 f7 10 82
static clsIGValue __CurACVoltage (0x00000008,4,"ACVoltage"); // 00 dd 11 84
static clsIGValue __CurACFrequency (0x00000010,4,"ACFrequency"); // 13 85 13 82
static clsIGValue __CurDCCurrent (0x00000020,4,"DCCurrent"); // 01 e8 10 82
static clsIGValue __CurDCVoltage (0x00000040,4,"DCVoltage"); // 00 f2 11 84
static clsIGValue __CurImpedance (0x00000080,3,"Impedance"); // 31 12 82 .49
static clsIGValue __CurIsolation (0x00000100,3,"Isolation"); // 64 12 8f >10 MOhm
static clsIGValue __DayEnergy (0x00000200,4,"Day.Energy"); // 00 02 01 07
static clsIGValue __DayUnk (0x00000400,4,"Day.Unknown"); // 00 01 1a 04
static clsIGValue __DayACPowerMax (0x00000800,4,"Day.ACPowerMax"); // 04 5e 0e 84
static clsIGValue __DayACVoltageMax (0x00001000,4,"Day.ACVoltageMax"); // 00 e3 11 84
static clsIGValue __DayACVoltageMin (0x00002000,4,"Day.ACVoltageMin"); // 00 db 11 84
static clsIGValue __DayDCVoltage (0x00004000,4,"Day.DCVoltageMax"); // 01 0a 11 84
static clsIGValue __DayRuntime (0x00008000,4,"Day.Runtime"); // 00 e7 21 84
static clsIGValue __YearEnergy (0x00010000,6,"Year.Energy"); // 00 00 09 ab 01 07
static clsIGValue __YearUnk (0x00020000,6,"Year.Unknown"); // 00 00 05 51 1a 04
static clsIGValue __YearACPowerMax (0x00040000,4,"Year.ACPowerMax"); // 10 ee 0e 84
static clsIGValue __YearACVoltageMax (0x00080000,4,"Year.ACVoltageMax"); // 00 e7 11 84
static clsIGValue __YearACVoltageMin (0x00100000,4,"Year.ACVoltageMin"); // 00 10 11 84
static clsIGValue __YearDCVoltage (0x00200000,4,"Year.DCVoltageMax"); // 01 30 11 84
static clsIGValue __YearRuntime (0x00400000,6,"Year.Runtime"); // 00 02 3a 4d 21 84
static clsIGValue __TotalEnergy (0x00800000,6,"Total.Energy"); // 00 00 21 b2 01 07
static clsIGValue __TotalUnk (0x01000000,6,"Total.Unknown"); // 00 00 12 88 1a 04
static clsIGValue __TotalACPowerMax (0x02000000,4,"Total.ACPowerMax"); // 10 f0 0e 84
static clsIGValue __TotalACVoltageMax (0x04000000,4,"Total.ACVoltageMax"); // 00 e9 11 84
static clsIGValue __TotalACVoltageMin (0x08000000,4,"Total.ACVoltageMin"); // 00 10 11 84
static clsIGValue __TotalDCVoltage (0x10000000,4,"Total.DCVoltageMax"); // 01 38 11 84
static clsIGValue __TotalRuntime (0x20000000,6,"Total.Runtime"); // 00 08 42 43 21 84
static clsIGValue* __ValueList[] =
{
&__State,
&__CurPower,
&__CurACCurrent,
&__CurACVoltage,
&__CurACFrequency,
&__CurDCCurrent,
&__CurDCVoltage,
&__CurImpedance,
&__CurIsolation,
&__DayEnergy,
&__DayUnk,
&__DayACPowerMax,
&__DayACVoltageMax,
&__DayACVoltageMin,
&__DayDCVoltage,
&__DayRuntime,
&__YearEnergy,
&__YearUnk,
&__YearACPowerMax,
&__YearACVoltageMax,
&__YearACVoltageMin,
&__YearDCVoltage,
&__YearRuntime,
&__TotalEnergy,
&__TotalUnk,
&__TotalACPowerMax,
&__TotalACVoltageMax,
&__TotalDCVoltage,
&__TotalRuntime,
};
/*
Current:
> 31 10 34 32 00 F9 32
< 31 10 34 32 00 01 00 15 14 84 A0 32
> 31 10 34 32 01 90 32
< 31 10 34 32 01 01 00 14 14 84 A0 32
> 31 10 34 32 02 2B 32
< 31 10 34 32 02 01 00 00 1B 44 6B 32
> 31 10 34 32 03 42 32
< 31 10 34 32 03 00 42 32
> 31 10 34 32 04 34 32
< 31 10 34 32 04 00 34 32
Day:
> 31 10 34 33 00 90 32
< 31 10 34 33 80 14 00 00 00 15 00 00 00 1B 1B C3 32
< 31 10 34 33 00 22 00 00 00 22 E2 32
> 31 10 34 33 01 F9 32
< 31 10 34 33 81 14 00 00 00 14 00 14 00 1C 9E 32
< 31 10 34 33 91 00 00 00 20 00 00 00 20 8B 32
> 31 10 34 33 02 42 32
< 31 10 34 33 82 00 00 1B 1B 44 00 00 1B 1B 44 04 1B 1B 32
< 31 10 34 33 92 8E 1B 1B 44 04 8E 1B 1B 44 FD 32
> 31 10 34 33 03 2B 32
< 31 10 34 33 03 00 00 01 04 00 00 01 04 00 2B 32
< 31 10 34 33 13 00 01 04 00 00 01 04 CD 32
> 31 10 34 33 04 5D 32
< 31 10 34 33 04 00 00 01 04 00 00 01 04 00 5D 32
< 31 10 34 33 14
> 31 10 34 33 05 34 32
< 31 10 34 33 05 00 00 03 00 00 00 03 00 00 34 32
< 31 10 34 33 15 00 03 00 00 00 03 04 1F 32
*/
bool clsLocalNet::QueryData(const clsLocalNetID& Device, enDisplaySelection nSelection, clsDataItemList* pData, String* psValue, String* psStateErrortext)
{
bool bRes(false);
clsResult<bool> Result("clsLocalNet::QueryInverterDisplay",bRes);
for (int nTry = 0; nTry < 3 && !bRes && !bUserAbortRequested(); ++nTry)
{
clsIGMessage MsgQuery( IGID_PC,
Device.nID(),
clsIGMessage::IGCMD_INV_QUERYDISPLAY_CURRENT);
clsIGMessage MsgResponse;
unsigned nMask = 0;
switch (nSelection)
{
case DATA_DISPLAY_VALUES:
nMask |= __State.nMask();
nMask |= __CurPower.nMask();
nMask |= __DayEnergy.nMask();
nMask |= __CurACVoltage.nMask();
nMask |= __CurACFrequency.nMask();
break;
case DATA_STATE:
nMask |= __State.nMask();
break;
case DATA_CURRENT:
for (int nValue = 0; nValue < sizeof(__ValueList)/sizeof(__ValueList[0]); ++nValue)
{
nMask |= __ValueList[nValue]->nMask();
}
break;
}
MsgQuery.SetPayload(5,0x00,(BYTE)(nMask >> 24),(BYTE)(nMask >> 16),(BYTE)(nMask >> 8),(BYTE)(nMask >> 0));
Log(">%-8s: %s","query", (LPCTSTR)MsgQuery.AsString());
if (Query(MsgQuery,MsgResponse))
{
if (MsgResponse.PayloadSize() >= MsgQuery.PayloadSize())
{
bRes = true;
String sRes;
const BYTE* pPayload = MsgResponse.Payload();
unsigned nFieldMask = (pPayload[0] << 24) + (pPayload[1] << 16) + (pPayload[2] << 8) + (pPayload[3] << 0);
clsDataItemList Data;
pPayload += 4;
for (int nValue = 0; nValue < sizeof(__ValueList)/sizeof(__ValueList[0]); ++nValue)
{
if (nFieldMask & __ValueList[nValue]->nMask())
{
// fprintf(stderr," %s: %s\n",__ValueList[nValue]->pszName(),(LPCTSTR)__ValueList[nValue]->sValue(pPayload));
if (__ValueList[nValue] == &__State)
{
if (psStateErrortext != NULL)
{
*psStateErrortext = __State.sState(pPayload);
}
}
_BroadcastServer.Send(String::Format("%s %s:%s=%s",
(LPCTSTR)clsSYSTEMTIME(true).sTimeHMS(),
(LPCTSTR)sLocalNetID(Device),
(LPCTSTR)__ValueList[nValue]->pszName(),
(LPCTSTR)__ValueList[nValue]->sValue(pPayload).LTrim()));
if (nSelection == DATA_DISPLAY_VALUES)
{
if (psValue)
{
if (__ValueList[nValue] == &__State)
{
if (__State.nState(pPayload) != 2)
{
psValue->AddStrSeparated(", ",__State.sState(pPayload));
}
else
{
psValue->AddStrSeparated(", ","running");
}
}
else
{
psValue->AddStrSeparated(", ",__ValueList[nValue]->sValue(pPayload));
}
}
}
else
{
if (pData != NULL)
{
if (__ValueList[nValue]->nUnit(pPayload) != UNIT_UNKNOWN)
{
clsDataItem Item(__ValueList[nValue]->dValue(pPayload),pszUnit(__ValueList[nValue]->nUnit(pPayload)));
pData->insert(__ValueList[nValue]->pszName(),Item);
}
}
}
pPayload += __ValueList[nValue]->nBytes();
}
}
}
}
}
return(bRes); // ignore COM errors
}
static clsIGValue __CurTempModules (0x00000000,4,"Temp1");
static clsIGValue __CurTempAmbient (0x00000001,4,"Temp2");
static clsIGValue __CurIrradiation (0x00000002,4,"Irradiation");
static clsIGValue __CurDigi1 (0x00000003,4,"Digi1");
static clsIGValue __CurDigi2 (0x00000004,4,"Digi2");
static clsIGValue __CurCurrent (0x00000005,4,"Current");
static clsIGValue* __SensorList[] =
{
&__CurTempModules,
&__CurTempAmbient,
&__CurIrradiation,
&__CurDigi1,
&__CurDigi2,
&__CurCurrent
};
bool clsLocalNet::QuerySensor(const clsLocalNetID& Device, clsDataItemList* pData, String* psValue)
{
bool bRes(false);
clsResult<bool> Result("clsLocalNet::QuerySensor",bRes);
for (int nTry = 0; nTry < 3 && !bRes && !bUserAbortRequested(); ++nTry)
{
for (int nSensor = 0; nSensor < 5; ++nSensor)
{
clsIGMessage MsgQuery( IGID_PC,
Device.nID(),
clsIGMessage::IGCMD_SNS_QUERYDISPLAY_CURRENT);
clsIGMessage MsgResponse;
MsgQuery.SetPayload(1,nSensor);
Log(">%-8s: %s","query", (LPCTSTR)MsgQuery.AsString());
if (Query(MsgQuery,MsgResponse))
{
Log("<%-8s: %s","query", (LPCTSTR)MsgResponse.AsString());
if (MsgResponse.PayloadSize() > MsgQuery.PayloadSize())
{
bRes = true;
String sRes;
const BYTE* pPayload = MsgResponse.Payload();
unsigned nSensorFromResponse = GetValueFromPayloadBE(1,pPayload);
if (nSensorFromResponse != nSensor)
{
_chk_utildebug("bad packet: sensor numbers do not match!");
continue;
}
bool bSensorPresent = (GetValueFromPayloadBE(1,pPayload) != 0);
if (bSensorPresent)
{
for (int nValue = 0; nValue < sizeof(__SensorList)/sizeof(__SensorList[0]); ++nValue)
{
if (__SensorList[nValue]->nMask() == nSensor)
{
// printf("%s: %s\n",(LPCTSTR)__SensorList[nValue]->pszName(),(LPCTSTR)__SensorList[nValue]->sValue(pPayload));
_BroadcastServer.Send(String::Format("%s %s:%s=%s",
(LPCTSTR)clsSYSTEMTIME(true).sTimeHMS(),
(LPCTSTR)sLocalNetID(Device),
(LPCTSTR)__SensorList[nValue]->pszName(),
(LPCTSTR)__SensorList[nValue]->sValue(pPayload).LTrim()));
if (psValue)
{
psValue->AddStrSeparated(", ",__SensorList[nValue]->sValue(pPayload));
}
if (pData != NULL)
{
if (__SensorList[nValue]->nUnit(pPayload) != UNIT_UNKNOWN)
{
clsDataItem Item(__SensorList[nValue]->dValue(pPayload),pszUnit(__SensorList[nValue]->nUnit(pPayload)));
pData->insert(__SensorList[nValue]->pszName(),Item);
}
}
}
}
}
}
}
}
}
return(bRes); // ignore COM errors
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */